VADER® and LightMore®
Both pedicle screw systems rely on proven surgical techniques and utilise design elements found in state-of-the-art pedicle screw systems. Their core value features high strength BlackArmor® Carbon/PEEK material and is a true alternative to metal implants.
BlackArmor® is 100 per cent radiolucent in all state-of-the-art imaging modes (MRI, CT and X-ray) and prevents imaging artifacts; a significant clinical benefit in the postoperative monitoring of anatomical structures. In addition, the non-metallic nature of the BlackArmor® material minimizes the risk for patients where metal allergies are a potential concern.
With a clinical track record of > 15 years and more than 20,000 implantations of BlackArmor® material since the year 2000, icotec has become the world leader for medical Carbon/PEEK implants. BlackArmor® Carbon/PEEK material is the result of a unique combination of continuous, high strength carbon fibers in a PEEK polymer matrix and icotec’s injection moulding CFM process. The result is implants with interwoven 3D fiber architecture/alignment that provide an unmatched combination of strength and endurance. Such a technology is the enabler for complex designed implants such as pedicle screws, vertebral body replacement devices or supplemental fixations devices, e.g. anatomical bone plates. The combination of mechanical strength and non-metallic properties make BlackArmor® also ideally suited for radiation therapy of spinal tumours and the subsequent follow up controls.
Before administering radiation therapy, the radiologist relies on accurate CT images to plan the correct radiation dose. However, the presence of metal spinal implants causes significant artifact on the planning images. This artifact makes it more difficult – sometimes almost impossible – to delineate the tumour from healthy anatomic structures and organs at risk and correctly calculate the proper dose distributions.
During radiation therapy, metal spinal implants may also shield tumour cells from the radiation. In addition, metal components induce scattering of the radiation beams into the surrounding healthy soft tissue potentially causing adverse side effects. And in some cases, patients for proton therapy are not eligible for the treatment since proton radiation therapy requires the absence of metals. An in vitro study by Kashua (2016) compared spinal constructs made from titanium vs. BlackArmor® material in a radiation-oncology setup. The group found significantly reduced artefacts for BlackArmor® material which resulted in a more accurate and homogenous dose planning. Clinical experiences with BlackArmor® Carbon/PEEK pedicle screws in spinal tumour surgery have been published by Eicker et al, 2014 and 2016 and Süss et al 2014. Both groups confirmed simplified and better dose-planning and radiation therapy with BlackArmor® implants.